SU1735519A1 - Sound-absorbing structure - Google Patents

Abstract

The invention relates to the control of low-frequency noise and is intended to create sound-absorbing coatings for walls and other elements of enclosing building structures, including ventilation ducts. The purpose of the invention is to increase the sound absorption capacity in the low frequency range while maintaining overall dimensions. To do this, in the resonant cavities of the sound absorbing structure formed by perforated sheets 1 and 2 and lattice elements 3, an elastic thin film 4 fixed by elements 3 is placed parallel to sheets 1 and 2. The structure is installed on a slope from the surface of the fence using the grid 5. The introduction of film 4 into the resonant cavities of the structure leads to an increase in the inertial part of the reactive component Acoustic impedance of the structure and, as a result, to a decrease in the resonance frequency of sound absorption. 1 il. Yo

Description

The invention relates to the control of low frequency noise and is intended to create sound absorbing coatings used for cladding walls and other elements enclosing building structures, including ventilation ducts.

The aim of the invention is to increase the sound absorption capacity in the low-frequency range while maintaining overall dimensions.

The drawing shows a sound-absorbing structure, fragment.

The structure consists of an outer 1 and an inner 2 perforated sheet, separated by a grid, the elements of which 3 together with the sheets 1 and 2 form resonant cavities. In the resonant cavities between the perforated sheets 1 and 2, parallel to them are placed an elastic thin film 4 or an airtight thin fabric fixed with the help of elements 3 and having the ability to perform oscillatory movements. The inner sheet 2 is fastened to the elements of the fences with respect to a grid of wooden boards 5 or light metal beams.

The sound wave incident on the structure causes the attached mass of air in the holes of the perforated coating 1 and an elastic thin film 4 to oscillate. The sound-absorbing structure is characterized by its complex acoustic resistance (acoustic impedance) to the incident sound wave. The real part of the impedance determines the active resistance of the system, and the reactive part characterizes the response of the structure to the action of the sound wave. The reactive part of the sound impedance

The absorbing structure consists of inertial and elastic resistances. The inertial resistance is determined by the mass of the oscillating part of the structure, and the elastic by the elasticity of air in the resonant cavities and, to a small extent, the film.

The inertial and elastic resistances vary in frequency in different ways. In case of equality of inertial and elastic resistance, the impedance of the structure becomes equal to the active resistance, which corresponds to the highest value of the sound absorption coefficient. The introduction of additional vibrational mass of the film into the design allows changing the reactive part of the impedance, shifting the resonance to low frequencies and increasing sound absorption. By varying the parameters of perforation, the size of the resonant cavity, the material and the thickness of the elastic film, the nature of the sound absorption of the structure can be changed.

The use of the proposed construction provides for obtaining high sound absorption coefficients at low frequencies while maintaining the thickness of the sound absorbing structure.

Claims (1)

Invention Formula A sound-absorbing structure consisting of perforated sheets mounted on relative to the fence and from each other by means of congruent grids, characterized in that, in order to increase the sound-absorbing ability in the low-frequency range while maintaining overall dimensions, elastic is fixed between them in parallel with the perforated sheets film or airtight thin fabric,